Xilinx Virtex or Kintex UltraScale FPGA

The Xilinx UltraScale FPGAs are built on 20 nm process technology and provide ASIC-like clocking for scalability, performance, and lower dynamic power. UltraScale devices are available in two variants: Virtex and Kintex; the XUSP3S board supports both. The Virtex devices feature two types of multi-gigabit transceivers: 32x 16Gb/s (GTH) and 16x 32.75 Gb/s (GTY), while Kintex devices have 48x GTH. The GTY transceivers enable 400GbE, 100GbE, and 25GbE. The Kintex FPGAs support 5,520 DSP slices, while the Virtex supports 768. The UltraScale FPGAs provide four integrated blocks for PCI Express, supporting x8 Gen3 Endpoint and Root Port designs. Integrated blocks for 150 Gb/s Interlaken and 100 Gb/s Ethernet (100G MAC/PCS) enable simple, reliable support for Nx100G switch and bridge applications.

I/O Interfaces

The XUSP3S provides a variety of interfaces for high-speed serial I/O as well as debug support. Four QSFP28 cages are available on the front panel, each supporting 100GbE, 40GbE, four 25GbE, or four 10GbE channels, for a total of up to 400 Gbps of bandwidth. The four QSFPs can also be combined for 400GbE. The QSFP channels are connected directly to the UltraScale FPGA via 32 Gb/s GTY transceivers (or GTH for Kintex devices). The QSFP cages can optionally be adapted for SFP+.

Two Gen3 x8 PCIe interfaces connect to the FPGA via 16 GTH transceivers, allowing for a x8 PCIe connection in a standard slot or two x8 interfaces in a bifurcated slot. An optional serial expansion interface on the back side of the board provides a 16x GTH transceiver port connection to the FPGA and can be used to add serial memory, such as Hybrid Memory Cube (HMC). The expansion site can also be used to connect an additional two x8 PCIe interfaces to the FPGA via a cable assembly connecting to an adjacent board that supports PCIe bifurcation, allowing for a total of four x8 PCIe interfaces.

A USB 2.0 interface is available for debug and programming support. The board also supports timestamping with provision for a 1 PPS and reference clock input.

Memory

The XUSP3S features up to 32 GBytes DDR4 on-board as well as two SODIMM sites that support standard DDR4 and proprietary QDR-II+ SODIMMs. Memory card options include up to 16 GBytes of DDR4 with optional ECC or up to 72 MBytes QDR-II+ (2 banks x18). Additional on-board memory includes Flash with factory default and support for multiple FPGA images.

Board Management Controller

The XUSP3S features an advanced system monitoring subsystem, similar to those typically found on today’s server platforms. At the heart of the board’s monitoring system lies a Board Management Controller (BMC), which accepts Intelligent Platform Management Interface (IPMI) messaging protocol commands. The BMC provides a wealth of features, including control of power and resets, monitoring of board sensors, FPGA boot loader, voltage overrides, configuration of programmable clocks, access to I2C bus components, field upgrades, and IPMI messaging. Access to the BMC is via PCIe or USB. BittWare’s BittWorks II Toolkit also provides utilities and libraries for communicating with the BMC components at a higher, more abstract level, allowing developers to remotely monitor the health of the board.

BwMonitor in the BittWorks II Toolkit provides a view into the board management capabilities of your BittWare hardware.

Development Tools

BittWorks II Toolkit

BittWare offers complete software support for the XUSP3S with its BittWorks II software tools. Designed to make developing and debugging applications for BittWare’s boards easy and efficient, the Toolkit is a collection of libraries and applications that provides the glue between the host application and the hardware. A variety of features allow developers to take full advantage of the Xilinx UltraScale FPGA capabilities on the BittWare board, including FPGA control via PCIe, Flash programming, custom ISR scripts, and convenient control of FPGA loads. The Toolkit supports 64-bit Windows and Linux platforms and can connect to the board via PCIe or USB, providing a common API no matter the connection method.

FPGA Development Kit

BittWare’s FPGA Development Kit (FDK) provides FPGA board support IP and integration for BittWare’s FPGA-based boards. The FDK includes FPGA components that provide preconfigured physical interfaces, infrastructure, and examples, drastically cutting development time and easily integrating into existing FPGA development environments.

Working example projects are available for each board which illustrate how to move data between the board’s different interfaces. Supported interfaces include DDR4, QDR-II+, PCIe, 10GbE, LVDS, SerDes, and Double Data Rate I/O.

Board Specifications

FPGA

  • Up to 1.4 million logic elements
  • Up to 75 Mb of embedded memory
  • Up to 4 integrated PCIe cores
  • Up to 5,520 (Kintex) or 768 (Virtex) DSP slices with 27×18 multipliers
  • Xilinx UltraScale FPGA
    • Virtex UltraScale 95
    • Kintex UltraScale 95/115
  • Multi-gigabit transceivers
    • Virtex: 16x GTY at 32.75 Gbps and 32x GTH at 16 Gbps
    • Kintex: 48x GTH at 16 Gbps

On-Board Memory

  • Two banks of up to 16 GB DDR4 (x72)
  • Flash memory for booting FPGA

Optional SODIMM Memory

  • DDR4: x72 w/ECC
    • Up to 16 GBytes per SODIMM
  • QDR-II+ x18
    • Up to 72 MBytes per SODIMM

PCIe Interface

  • Two x8 Gen1, Gen2, Gen3 interfaces direct to FPGA (One x8 interface in a standard slot; two x8 interfaces requires bifurcated slot)

USB Header

  • Micro USB port (USB 2.0) for debug and programming FPGA and Flash

QSFP Cages

  • 4 QSFP28 (zQSFP) cages on front panel connected directly to FPGA via 16 GTY transceivers (GTH for Kintex)
  • Each supports 100GbE, 40GbE, 4x 25GbE, or 4x 10GbE (100GbE, 25 GbE Virtex only) and can be combined for 400GbE
  • Backward compatible with QSFP and can be optionally adapted for use as SFP+

Serial Expansion Port

  • Expansion interface to FPGA via 16x GTH transceivers (optional; requires second slot)

Timestamping

  • 1 PPS input
  • Reference clock input

Board Management Controller

  • Voltage, current, temperature monitoring
  • Power sequencing and reset
  • Field upgrades
  • FPGA configuration and control
  • Clock configuration
  • I2C bus access
  • USB 2.0 and JTAG access
  • Voltage overrides

Size

  • 3/4-length, standard-height PCIe slot card
  • 241mm x 111.15mm
  • Max. component height: 14.47mm single slot, 34.79mm dual slot

Development Tools

System Development

  • BittWorks II Toolkit – host, command, and debug tools for BittWare hardware; Matlab API

FPGA Development

  • FPGA Development Kit
    • Physical interface components
    • Board, I/O, and timing constraints
    • Example projects
    • Software components and drivers
  • Xilinx Tools
    • Vivado® Design Suite
    • USB to JTAG converter
XUSP3S – RW-ABBBBCD-EF-GGHH-IJK-LMNOPQR-S
RW Ruggedization

0U = Commercial (0°C to 50°C)*
A UltraScale Printed Wiring Board

  • A = Optimized for 95 FPGA*
  • B = Optimized for 115 FPGA
BBBB FPGA Type and Size

  • 095K = Kintex KU095
  • 095V = Virtex VU095*
  • 115K = Kintex KU115
C FPGA Core Speed Grade

  • 1 = Slower
  • 2 = Standard*
  • 3 = Faster
D FPGA Temperature Range

  • E = Extended (Tj = 0 to +100C)*
E DDR4 Bank A

  • 0 = None
  • 2 = 4GB*
  • 3 = 8GB
  • 4 = 16GB
F DDR4 Bank B

  • 0 = None
  • 2 = 4GB*
  • 3 = 8GB
  • 4 = 16GB
GG SODIMM A

  • 00 = None
  • E3 = DDR4 8GB x72*
  • E4 = DDR4 16GB x72
  • Q4 = Dual QDRII+ x18 144Mb
  • Q5 = Dual QDRII+ x18 288Mb
HH SODIMM B

  • 00 = None
  • E3 = DDR4 8GB x72*
  • E4 = DDR4 16GB x72
  • Q4 = Dual QDRII+ x18 144Mb
  • Q5 = Dual QDRII+ x18 288Mb
I Oscillator

  • A = Adjustable TCXO
  • T = TCXO*
J Auxilliary Oscillator Configuration

0 = 322.265625 MHz*
K Timing

  • 0 = None
  • S = Front panel SMAs (in adjacent slot)
  • X = Onboard circuits only
L QSFP Configuration

4 = 4 QSFP cages
M Serial Expansion Port

  • 0 = Not installed*
  • 1 = Installed (requires second slot)
N JTAG

  • 1 = Installed*
O USB-to-JTAG

  • 1 = Installed*
P Heatsink
  • G = FPGA fansink, single-slot*
  • H = FPGA heatsink, single-slot
Q Mechanical Options
  • O = No stiffener
  • S = Standard stiffener*
R Misc. Configuration

0 = Default
S Assembly

6 = RoHS 6/6
BittWare Feature UltraScale Family
Program Flash via PCIe via USB
Configure FPGA From Flash via PCIe via USB
Configure FPGA Directly via USB
Reset FPGA via PCIe via USB ✓ ✓
Access FPGA Registers, Memory Spaces From User Applications via PCIe via USB ✓ ✗
Virtual PCIe Hot-Swap
On-board JTAG Pod
Factory Backup Image with PCIe
Multiple User Images in Flash
Serial Number via PCIe via USB ✓ ✓
MAC Addresses For Each Network Interface via PCIe via USB ✓ ✓
BMC Voltage, Current, Temperature Sensors via PCIe via USB ✓ ✓
BMC Clock Re-programming via PCIe via USB
BMC FPGA Core Voltage Override via PCIe via USB
Upgrade BMC Firmware via PCIe via USB ✗ ✓
Documentation Quick-start Guide User’s Manual How-to Index BMC User’s Guide ✓ ✓ ✓ ✓
Examples PCIe DMA 10G Ethernet DDR4 Memory BMC Host (without using BittWare drivers) ✓ ✓ ✓ ✓